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organelles

Organelles are specialized subcellular structures that perform distinct functions essential to the life of the cell. In eukaryotic cells, most organelles are bounded by membranes, creating discrete environments for specific biochemical processes; some structures, such as ribosomes and proteasomes, lack membranes.

Key organelles include the nucleus, which houses genetic material and coordinates gene expression; mitochondria, which generate

Non-membrane-bound components also play essential roles. Ribosomes synthesize proteins, proteasomes degrade damaged or unneeded proteins, and

Prokaryotic cells generally lack membrane-bound organelles, though they possess simple compartments and protein complexes that perform

ATP
through
respiration;
and
chloroplasts
(in
plants
and
algae),
which
perform
photosynthesis
and
contain
their
own
DNA.
The
endoplasmic
reticulum
comes
in
two
forms—rough,
studded
with
ribosomes,
and
smooth—synthesizing
proteins
and
lipids.
The
Golgi
apparatus
modifies,
sorts,
and
ships
proteins
and
lipids
to
their
destinations.
Lysosomes
and
peroxisomes
carry
out
degradation
and
detoxification,
while
vacuoles
store
substances
and
help
maintain
turgor
pressure
in
plant
cells.
Vesicles
and
endosomes
mediate
transport
between
compartments,
and
the
cytoskeleton
provides
structural
support
and
facilitates
movement
within
the
cell.
the
cytoskeleton
organizes
cellular
architecture
and
traffic.
Some
organelles,
such
as
mitochondria
and
chloroplasts,
contain
their
own
DNA
and
ribosomes,
reflecting
an
endosymbiotic
origin.
specialized
tasks.
Organelles
continually
interact
through
vesicular
trafficking
and
membrane
contact
sites,
coordinating
metabolism
and
signaling.
Dysfunction
of
organelles
is
linked
to
a
range
of
diseases
and
disorders,
underscoring
their
importance
to
cellular
health.